Verfügbarkeit: A primer in photoemission :

A primer in photoemission :: concepts and applications /

Photoemission is a spectroscopic technique to study the physicochemical properties of surfaces as well as their electronic properties, since it allows you to determine the band structure of the materials. This book introduces the basic concepts of photoemission: core level and valence band photoemis...

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Hauptverfasser:	Tejeda, Antonio (VerfasserIn), Malterre, Daniel (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	[Place of publication not identified] : EDP Sciences, [2019]
Schriftenreihe:	QuinteSciences.
Schlagworte:	Photoemission. Photoémission. Photoemission
Online-Zugang:	Volltext
Zusammenfassung:	Photoemission is a spectroscopic technique to study the physicochemical properties of surfaces as well as their electronic properties, since it allows you to determine the band structure of the materials. This book introduces the basic concepts of photoemission: core level and valence band photoemission, together with many recent developments on current topics. Two levels of reading are presented: an elementary primer based on a mono-electronic approach to qualitatively understand the interest of this spectroscopy and a deeper level supported on a many-body approach that allows you to get access to the interactions at the origin of the electronic properties of condensed matter. This book addresses a broad span of readers, from undergraduate students for the more elementary aspects, to the research scientists specialized in the technique for the concepts and the application examples.
Beschreibung:	1 online resource
ISBN:	9782759823918 2759823911

Internformat

MARC


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505	0		\|a Cover; A Primer in Photoemission: Concepts and Applications; Table of Contents; Preface; Acknowledgments; Introduction; Part I Concepts; Chapter 1 The history of photoemission; 1.1 Origin of photoemission: the photoelectric effect; 1.2 Core level spectroscopy; 1.3 Band structure; 1.4 Photoemission: a standard technique for the study of electronic properties; Chapter 2 Elementary approach to photoemission; 2.1 The photoelectron emission process; 2.2 Technical aspects of a photoemission experiment; 2.3 Model to describing the photoemission process; 2.4 The core levels; 2.5 The valence band
505	8		\|a Chapter 3 Basic concepts3.1 Photoemission modelling; 3.1.1 Hamiltonian of the electron-photon interaction Hamiltonian and transition probability; 3.1.2 Qualitative approach: nearly-free electrons; 3.1.3 Qualitative approach: core levels; 3.1.4 The one-step and the three-step models; 3.1.5 The three-step model; 3.2 Detailed analysis of valence states: N-body approach.; 3.2.1 Fermi liquid and quasi-particles.; 3.2.2 Many-body formalism; 3.2.3 Illustrations.; 3.2.4 Selection rules and symmetry; 3.2.5 Matrix elements.; 3.2.6 Temperature dependence; 3.3 Detailed analysis of core levels
505	8		\|a 3.3.1 Core level line shape in metals3.3.2 Multiplet effects; 3.3.3 Satellite structures; 3.3.4 Selection rules for core level photoemission; 3.3.5 Cross section; 3.4 Related processes; 3.4.1 Auger spectroscopy; 3.4.2 Photoelectron diffraction; 3.4.3 Resonant photoemission; 3.4.4 Two-photon processes; 3.4.5 Inverse photoemission; Chapter 4 Experimental techniques; 4.1 Ultra-high vacuum; 4.2 Micromechanics; 4.3 Photon sources; 4.3.1 Discharge lamps; 4.3.2 X-ray tubes; 4.3.3 Laser photoemission: ultra-high resolution and dynamical studies; 4.3.4 Synchrotron radiation and beam lines
505	8		\|a 4.3.5 Free electron lasers4.4 Electron analyzers; 4.4.1 Cylindrical Mirror Analyzer; 4.4.2 Hemispherical Analyzer; 4.4.3 Toroidal detectors; 4.4.4 High pressure electron detection; 4.4.5 Time-of-flight detector; 4.4.6 Spin analyzers; 4.4.7 Photoemission microscope; Part II Applications; Chapter 5 Transitions from localized states; 5.1 Spectral shape of core level transitions; 5.1.1 Auger transitions; 5.1.2 Photoemission transitions; 5.1.3 Spectra from complex core levels; 5.2 Core level spectroscopy applications; 5.2.1 Quantitative chemical analysis; 5.2.2 Chemical shifts
505	8		\|a 5.2.3 Composition profile under the surface5.2.4 Coverage estimation; 5.2.5 Growth kinetics; 5.2.6 Dichroism in photoemission; Chapter 6 Photoelectron diffraction; 6.1 Experimental techniques; 6.2 Methods for structural determination; 6.2.1 Direct methods; 6.2.2 Comparative methods; 6.3 Photoelectron diffraction examples; Chapter 7 Dispersion relations; 7.1 Experimental data representation; 7.1.1 Two-dimensional representations of the dispersion; 7.1.2 Energy and Momentum Distribution Curves; 7.1.3 Positive-negative energy symmetrization of the data
520			\|a Photoemission is a spectroscopic technique to study the physicochemical properties of surfaces as well as their electronic properties, since it allows you to determine the band structure of the materials. This book introduces the basic concepts of photoemission: core level and valence band photoemission, together with many recent developments on current topics. Two levels of reading are presented: an elementary primer based on a mono-electronic approach to qualitatively understand the interest of this spectroscopy and a deeper level supported on a many-body approach that allows you to get access to the interactions at the origin of the electronic properties of condensed matter. This book addresses a broad span of readers, from undergraduate students for the more elementary aspects, to the research scientists specialized in the technique for the concepts and the application examples.
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contents	Cover; A Primer in Photoemission: Concepts and Applications; Table of Contents; Preface; Acknowledgments; Introduction; Part I Concepts; Chapter 1 The history of photoemission; 1.1 Origin of photoemission: the photoelectric effect; 1.2 Core level spectroscopy; 1.3 Band structure; 1.4 Photoemission: a standard technique for the study of electronic properties; Chapter 2 Elementary approach to photoemission; 2.1 The photoelectron emission process; 2.2 Technical aspects of a photoemission experiment; 2.3 Model to describing the photoemission process; 2.4 The core levels; 2.5 The valence band Chapter 3 Basic concepts3.1 Photoemission modelling; 3.1.1 Hamiltonian of the electron-photon interaction Hamiltonian and transition probability; 3.1.2 Qualitative approach: nearly-free electrons; 3.1.3 Qualitative approach: core levels; 3.1.4 The one-step and the three-step models; 3.1.5 The three-step model; 3.2 Detailed analysis of valence states: N-body approach.; 3.2.1 Fermi liquid and quasi-particles.; 3.2.2 Many-body formalism; 3.2.3 Illustrations.; 3.2.4 Selection rules and symmetry; 3.2.5 Matrix elements.; 3.2.6 Temperature dependence; 3.3 Detailed analysis of core levels 3.3.1 Core level line shape in metals3.3.2 Multiplet effects; 3.3.3 Satellite structures; 3.3.4 Selection rules for core level photoemission; 3.3.5 Cross section; 3.4 Related processes; 3.4.1 Auger spectroscopy; 3.4.2 Photoelectron diffraction; 3.4.3 Resonant photoemission; 3.4.4 Two-photon processes; 3.4.5 Inverse photoemission; Chapter 4 Experimental techniques; 4.1 Ultra-high vacuum; 4.2 Micromechanics; 4.3 Photon sources; 4.3.1 Discharge lamps; 4.3.2 X-ray tubes; 4.3.3 Laser photoemission: ultra-high resolution and dynamical studies; 4.3.4 Synchrotron radiation and beam lines 4.3.5 Free electron lasers4.4 Electron analyzers; 4.4.1 Cylindrical Mirror Analyzer; 4.4.2 Hemispherical Analyzer; 4.4.3 Toroidal detectors; 4.4.4 High pressure electron detection; 4.4.5 Time-of-flight detector; 4.4.6 Spin analyzers; 4.4.7 Photoemission microscope; Part II Applications; Chapter 5 Transitions from localized states; 5.1 Spectral shape of core level transitions; 5.1.1 Auger transitions; 5.1.2 Photoemission transitions; 5.1.3 Spectra from complex core levels; 5.2 Core level spectroscopy applications; 5.2.1 Quantitative chemical analysis; 5.2.2 Chemical shifts 5.2.3 Composition profile under the surface5.2.4 Coverage estimation; 5.2.5 Growth kinetics; 5.2.6 Dichroism in photoemission; Chapter 6 Photoelectron diffraction; 6.1 Experimental techniques; 6.2 Methods for structural determination; 6.2.1 Direct methods; 6.2.2 Comparative methods; 6.3 Photoelectron diffraction examples; Chapter 7 Dispersion relations; 7.1 Experimental data representation; 7.1.1 Two-dimensional representations of the dispersion; 7.1.2 Energy and Momentum Distribution Curves; 7.1.3 Positive-negative energy symmetrization of the data
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series2	QuinteSciences
spelling	Tejeda, Antonio, author. http://id.loc.gov/authorities/names/n2013009456 A primer in photoemission : concepts and applications / Antonio Tejeda, Daniel Malterre. [Place of publication not identified] : EDP Sciences, [2019] ©2019 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier QuinteSciences Online resource; title from PDF title page (EBSCO, viewed July 30, 2019). Cover; A Primer in Photoemission: Concepts and Applications; Table of Contents; Preface; Acknowledgments; Introduction; Part I Concepts; Chapter 1 The history of photoemission; 1.1 Origin of photoemission: the photoelectric effect; 1.2 Core level spectroscopy; 1.3 Band structure; 1.4 Photoemission: a standard technique for the study of electronic properties; Chapter 2 Elementary approach to photoemission; 2.1 The photoelectron emission process; 2.2 Technical aspects of a photoemission experiment; 2.3 Model to describing the photoemission process; 2.4 The core levels; 2.5 The valence band Chapter 3 Basic concepts3.1 Photoemission modelling; 3.1.1 Hamiltonian of the electron-photon interaction Hamiltonian and transition probability; 3.1.2 Qualitative approach: nearly-free electrons; 3.1.3 Qualitative approach: core levels; 3.1.4 The one-step and the three-step models; 3.1.5 The three-step model; 3.2 Detailed analysis of valence states: N-body approach.; 3.2.1 Fermi liquid and quasi-particles.; 3.2.2 Many-body formalism; 3.2.3 Illustrations.; 3.2.4 Selection rules and symmetry; 3.2.5 Matrix elements.; 3.2.6 Temperature dependence; 3.3 Detailed analysis of core levels 3.3.1 Core level line shape in metals3.3.2 Multiplet effects; 3.3.3 Satellite structures; 3.3.4 Selection rules for core level photoemission; 3.3.5 Cross section; 3.4 Related processes; 3.4.1 Auger spectroscopy; 3.4.2 Photoelectron diffraction; 3.4.3 Resonant photoemission; 3.4.4 Two-photon processes; 3.4.5 Inverse photoemission; Chapter 4 Experimental techniques; 4.1 Ultra-high vacuum; 4.2 Micromechanics; 4.3 Photon sources; 4.3.1 Discharge lamps; 4.3.2 X-ray tubes; 4.3.3 Laser photoemission: ultra-high resolution and dynamical studies; 4.3.4 Synchrotron radiation and beam lines 4.3.5 Free electron lasers4.4 Electron analyzers; 4.4.1 Cylindrical Mirror Analyzer; 4.4.2 Hemispherical Analyzer; 4.4.3 Toroidal detectors; 4.4.4 High pressure electron detection; 4.4.5 Time-of-flight detector; 4.4.6 Spin analyzers; 4.4.7 Photoemission microscope; Part II Applications; Chapter 5 Transitions from localized states; 5.1 Spectral shape of core level transitions; 5.1.1 Auger transitions; 5.1.2 Photoemission transitions; 5.1.3 Spectra from complex core levels; 5.2 Core level spectroscopy applications; 5.2.1 Quantitative chemical analysis; 5.2.2 Chemical shifts 5.2.3 Composition profile under the surface5.2.4 Coverage estimation; 5.2.5 Growth kinetics; 5.2.6 Dichroism in photoemission; Chapter 6 Photoelectron diffraction; 6.1 Experimental techniques; 6.2 Methods for structural determination; 6.2.1 Direct methods; 6.2.2 Comparative methods; 6.3 Photoelectron diffraction examples; Chapter 7 Dispersion relations; 7.1 Experimental data representation; 7.1.1 Two-dimensional representations of the dispersion; 7.1.2 Energy and Momentum Distribution Curves; 7.1.3 Positive-negative energy symmetrization of the data Photoemission is a spectroscopic technique to study the physicochemical properties of surfaces as well as their electronic properties, since it allows you to determine the band structure of the materials. This book introduces the basic concepts of photoemission: core level and valence band photoemission, together with many recent developments on current topics. Two levels of reading are presented: an elementary primer based on a mono-electronic approach to qualitatively understand the interest of this spectroscopy and a deeper level supported on a many-body approach that allows you to get access to the interactions at the origin of the electronic properties of condensed matter. This book addresses a broad span of readers, from undergraduate students for the more elementary aspects, to the research scientists specialized in the technique for the concepts and the application examples. Photoemission. http://id.loc.gov/authorities/subjects/sh85101167 Photoémission. Photoemission fast Malterre, Daniel, author. has work: A primer in photoemission (Text) https://id.oclc.org/worldcat/entity/E39PCFGBFQyqrpxMc874qMVDMP https://id.oclc.org/worldcat/ontology/hasWork QuinteSciences. http://id.loc.gov/authorities/names/no2014027080 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2204768 Volltext
spellingShingle	Tejeda, Antonio Malterre, Daniel A primer in photoemission : concepts and applications / QuinteSciences. Cover; A Primer in Photoemission: Concepts and Applications; Table of Contents; Preface; Acknowledgments; Introduction; Part I Concepts; Chapter 1 The history of photoemission; 1.1 Origin of photoemission: the photoelectric effect; 1.2 Core level spectroscopy; 1.3 Band structure; 1.4 Photoemission: a standard technique for the study of electronic properties; Chapter 2 Elementary approach to photoemission; 2.1 The photoelectron emission process; 2.2 Technical aspects of a photoemission experiment; 2.3 Model to describing the photoemission process; 2.4 The core levels; 2.5 The valence band Chapter 3 Basic concepts3.1 Photoemission modelling; 3.1.1 Hamiltonian of the electron-photon interaction Hamiltonian and transition probability; 3.1.2 Qualitative approach: nearly-free electrons; 3.1.3 Qualitative approach: core levels; 3.1.4 The one-step and the three-step models; 3.1.5 The three-step model; 3.2 Detailed analysis of valence states: N-body approach.; 3.2.1 Fermi liquid and quasi-particles.; 3.2.2 Many-body formalism; 3.2.3 Illustrations.; 3.2.4 Selection rules and symmetry; 3.2.5 Matrix elements.; 3.2.6 Temperature dependence; 3.3 Detailed analysis of core levels 3.3.1 Core level line shape in metals3.3.2 Multiplet effects; 3.3.3 Satellite structures; 3.3.4 Selection rules for core level photoemission; 3.3.5 Cross section; 3.4 Related processes; 3.4.1 Auger spectroscopy; 3.4.2 Photoelectron diffraction; 3.4.3 Resonant photoemission; 3.4.4 Two-photon processes; 3.4.5 Inverse photoemission; Chapter 4 Experimental techniques; 4.1 Ultra-high vacuum; 4.2 Micromechanics; 4.3 Photon sources; 4.3.1 Discharge lamps; 4.3.2 X-ray tubes; 4.3.3 Laser photoemission: ultra-high resolution and dynamical studies; 4.3.4 Synchrotron radiation and beam lines 4.3.5 Free electron lasers4.4 Electron analyzers; 4.4.1 Cylindrical Mirror Analyzer; 4.4.2 Hemispherical Analyzer; 4.4.3 Toroidal detectors; 4.4.4 High pressure electron detection; 4.4.5 Time-of-flight detector; 4.4.6 Spin analyzers; 4.4.7 Photoemission microscope; Part II Applications; Chapter 5 Transitions from localized states; 5.1 Spectral shape of core level transitions; 5.1.1 Auger transitions; 5.1.2 Photoemission transitions; 5.1.3 Spectra from complex core levels; 5.2 Core level spectroscopy applications; 5.2.1 Quantitative chemical analysis; 5.2.2 Chemical shifts 5.2.3 Composition profile under the surface5.2.4 Coverage estimation; 5.2.5 Growth kinetics; 5.2.6 Dichroism in photoemission; Chapter 6 Photoelectron diffraction; 6.1 Experimental techniques; 6.2 Methods for structural determination; 6.2.1 Direct methods; 6.2.2 Comparative methods; 6.3 Photoelectron diffraction examples; Chapter 7 Dispersion relations; 7.1 Experimental data representation; 7.1.1 Two-dimensional representations of the dispersion; 7.1.2 Energy and Momentum Distribution Curves; 7.1.3 Positive-negative energy symmetrization of the data Photoemission. http://id.loc.gov/authorities/subjects/sh85101167 Photoémission. Photoemission fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85101167
title	A primer in photoemission : concepts and applications /
title_auth	A primer in photoemission : concepts and applications /
title_exact_search	A primer in photoemission : concepts and applications /
title_full	A primer in photoemission : concepts and applications / Antonio Tejeda, Daniel Malterre.
title_fullStr	A primer in photoemission : concepts and applications / Antonio Tejeda, Daniel Malterre.
title_full_unstemmed	A primer in photoemission : concepts and applications / Antonio Tejeda, Daniel Malterre.
title_short	A primer in photoemission :
title_sort	primer in photoemission concepts and applications
title_sub	concepts and applications /
topic	Photoemission. http://id.loc.gov/authorities/subjects/sh85101167 Photoémission. Photoemission fast
topic_facet	Photoemission. Photoémission. Photoemission
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2204768
work_keys_str_mv	AT tejedaantonio aprimerinphotoemissionconceptsandapplications AT malterredaniel aprimerinphotoemissionconceptsandapplications AT tejedaantonio primerinphotoemissionconceptsandapplications AT malterredaniel primerinphotoemissionconceptsandapplications

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